Rommel C, Radziwill G, Lovrić J, Noeldeke J, Heinicke T, Jones D, Aitken A, Moelling K
Institute of Medical Virology, University of Zuerich, Switzerland.
Oncogene. 1996 Feb 1;12(3):609-19.
The serine/threonine protein kinase c-Raf-1 interacts with a number of cellular proteins including 14-3-3 isoforms which may be regulators or substrates of c-Raf-1 in signal transduction pathways. In vivo and in vitro binding analyses of c-Raf-1 and mutant proteins with 14-3-3 zeta indicate bivalent binding of 14-3-3 zeta to the amino terminus as well as to the carboxy terminus of c-Raf-1. Although 14-3-3 zeta and Ras use different binding regions on the amino terminal regulatory domain of c-Raf-1 (c-Raf-NT), 14-3-3 zeta is displaced from the amino terminus upon binding of activated Ras. In contrast, if c-Raf-1 full length is analysed instead of the separately expressed c-Raf-NT, binding of 14-3-3 zeta is only slightly effected by co-expression of activated Ras. This is explained by a second binding site of 14-3-3 zeta at the carboxy terminus of c-Raf-1. The mutant c-Raf-NT (S259A) cannot bind 14-3-3 zeta, suggesting a regulatory role of this in vivo phosphorylation site. However, c-Raf-NT phosphorylated or unphosphorylated at S259, is able to bind 14-3-3 zeta. Even though 14-3-3 zeta can be phosphorylated in vivo, only the unphosphorylated form binds to the amino terminus of c-Raf-1. The data presented indicate, that 14-3-3 zeta binds to c-Raf-1 in a bivalent fashion in unstimulated cells. 14-3-3 zeta is displaced from the amino terminus but not from the carboxy terminus of c-Raf-1 by binding of activated Ras to c-Raf-1.
丝氨酸/苏氨酸蛋白激酶c-Raf-1与许多细胞蛋白相互作用,包括14-3-3亚型,它们可能是信号转导途径中c-Raf-1的调节因子或底物。对c-Raf-1和突变蛋白与14-3-3ζ的体内和体外结合分析表明,14-3-3ζ与c-Raf-1的氨基末端以及羧基末端存在二价结合。尽管14-3-3ζ和Ras在c-Raf-1的氨基末端调节域(c-Raf-NT)上使用不同的结合区域,但在活化Ras结合后,14-3-3ζ会从氨基末端被取代。相反,如果分析的是c-Raf-1全长而非单独表达的c-Raf-NT,活化Ras的共表达对14-3-3ζ结合的影响很小。这是因为14-3-3ζ在c-Raf-1的羧基末端还有第二个结合位点。突变的c-Raf-NT(S259A)不能结合14-3-3ζ,这表明该体内磷酸化位点具有调节作用。然而,在S259处磷酸化或未磷酸化的c-Raf-NT都能够结合14-3-3ζ。尽管14-3-3ζ在体内可以被磷酸化,但只有未磷酸化形式能与c-Raf-1的氨基末端结合。所呈现的数据表明,在未受刺激的细胞中,14-3-3ζ以二价方式与c-Raf-1结合。通过活化Ras与c-Raf-1结合后,14-3-3ζ会从c-Raf-1的氨基末端而非羧基末端被取代。
